Leucine partially protects muscle mass and function during bed rest in middle-aged adults.
about
Protecting Skeletal Muscle with Protein and Amino Acid during Periods of Disuse11C-L-methyl methionine dynamic PET/CT of skeletal muscle: response to protein supplementation compared to L-[ring 13C6] phenylalanine infusion with serial muscle biopsyPanoramic ultrasound: a novel and valid tool for monitoring change in muscle massFourteen days of bed rest induces a decline in satellite cell content and robust atrophy of skeletal muscle fibers in middle-aged adults.Chronic leucine supplementation improves lipid metabolism in C57BL/6J mice fed with a high-fat/cholesterol diet.Identifying effective and feasible interventions to accelerate functional recovery from hospitalization in older adults: A randomized controlled pilot trial.The effects of strict prolonged bedrest on cardio-respiratory fitness: systematic review and meta-analysis.Dietary proteins and amino acids in the control of the muscle mass during immobilization and aging: role of the MPS response.Pain and Vertebral Dysfunction in Dry Immersion: A Model of Microgravity Simulation Different from Bed Rest Studies.Higher Protein Intake Does Not Improve Lean Mass Gain When Compared with RDA Recommendation in Postmenopausal Women Following Resistance Exercise Protocol: A Randomized Clinical Trial.Protein Intake, Especially Vegetable Protein Intake, Is Associated with Higher Skeletal Muscle Mass in Elderly Patients with Type 2 Diabetes.The impact of dairy protein during limb immobilization and recovery on muscle size and protein synthesis; a randomized controlled trial.Failed recovery of glycemic control and myofibrillar protein synthesis with two weeks of physical inactivity in overweight, pre-diabetic older adults.Interventional strategies to combat muscle disuse atrophy in humans: focus on neuromuscular electrical stimulation and dietary protein.Metabolic pathways at the crossroads of diabetes and inborn errors.Is β-hydroxy β-methylbutyrate an effective anabolic agent to improve outcome in older diseased populations?Paralytic and non-paralytic muscle adaptations to exercise training vs. high protein diet in individuals with long-standing spinal cord injury.Variation in Protein Origin and Utilization: Research and Clinical Application.FoxO3a suppression and VPS34 activity are essential to anti-atrophic effects of leucine in skeletal muscle.Neuromuscular Electrical Stimulation Combined with Protein Ingestion Preserves Thigh Muscle Mass But Not Muscle Function in Healthy Older Adults During 5 Days of Bed Rest.Effects of high-protein intake on bone turnover in long-term bed rest in women.Protein Requirements in Critically Ill Older Adults.Protein for Life: Review of Optimal Protein Intake, Sustainable Dietary Sources and the Effect on Appetite in Ageing Adults.Towards human exploration of space: the THESEUS review series on muscle and bone research priorities.Applications for α-lactalbumin in human nutrition.Innate Immunity in the Persistent Inflammation, Immunosuppression, and Catabolism Syndrome and Its Implications for Therapy.Leucine Supplementation Does Not Attenuate Skeletal Muscle Loss during Leg Immobilization in Healthy, Young Men.
P2860
Q26744727-50B3022C-3DEE-480E-995D-A2786100E9F6Q33581094-65754E09-E31E-42EE-9D5F-47269530764EQ33813569-F6B65653-3140-4CB1-8C36-0373D8E9A220Q36810674-9A8211C5-D40A-4F6A-87BE-EEF7984D2C05Q37247322-9373D4B0-348D-4507-BE48-FD60916BB918Q37701438-7EE46A34-F645-43ED-86C0-9D72145B2F26Q38680088-AEE664BB-C3B9-4FAA-A4AF-53FBA388EF9AQ39125369-DA935F93-0C90-40E4-9123-36646EA6B3A3Q41146690-645B4524-7F79-4C7F-B179-27A12E140172Q42197912-3B43E4BF-C0A5-4C19-8360-4CD61A85489EQ46599529-178DF9BF-D18C-4455-ADF9-0ACD3737299BQ47177138-F0CDBA35-50A3-4D30-B0D3-315248C906C6Q47449451-D230888E-FF6B-46CD-8B71-771C20449B1EQ47712562-08AED2FB-7A6F-4DCC-B59F-6FCA3DABFB4AQ47927670-3AE61CFC-E7B0-4241-A354-73D3D776EAB7Q50059803-AF328E0F-58E1-4AD9-8A87-E590049A8664Q50421405-67E2B343-A75C-4393-B913-AEF1735491ADQ50661404-A1EDDF79-1285-4F39-BFCE-A737FA53BF04Q50706556-8A426F26-77D1-409D-B822-96E0FBCA9035Q51014797-3D71CCCD-F926-418A-9771-E843BCDCE354Q51146724-B6720FDB-C956-4C89-B95C-133B254BA325Q51761257-140945A6-FF77-4AEC-80FA-C2E81FB8B874Q51762483-0C025017-BFCF-4E0F-AD9C-867E9EF42C96Q51811279-3B609225-790A-4BC2-9F90-75F28FB4631FQ52332145-A83A1FC8-ED19-4F84-A5F4-8AD722449FADQ52579155-4D2FD3A4-B32F-403E-9C62-9657E921A63BQ55298552-FC7104C4-B6BB-4C36-9C84-BB19CA1D4A07
P2860
Leucine partially protects muscle mass and function during bed rest in middle-aged adults.
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
2015年论文
@zh
2015年论文
@zh-cn
name
Leucine partially protects mus ...... ed rest in middle-aged adults.
@ast
Leucine partially protects mus ...... ed rest in middle-aged adults.
@en
type
label
Leucine partially protects mus ...... ed rest in middle-aged adults.
@ast
Leucine partially protects mus ...... ed rest in middle-aged adults.
@en
prefLabel
Leucine partially protects mus ...... ed rest in middle-aged adults.
@ast
Leucine partially protects mus ...... ed rest in middle-aged adults.
@en
P2093
P2860
P356
P1476
Leucine partially protects mus ...... ed rest in middle-aged adults.
@en
P2093
Emily Arentson-Lantz
James M Pattarini
Jennifer B Ellison
Joni A Mettler
Kirk L English
Madonna M Mamerow
Robert Ploutz-Snyder
P2860
P304
P356
10.3945/AJCN.115.112359
P407
P577
2015-12-30T00:00:00Z